We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Papers
61,005 resultsShowing papers similar to Microplastics decrease the toxicity of cadmium to methane production from anaerobic digestion of sewage sludge
ClearEvaluation of partial nitrification efficiency as a response to cadmium concentration and microplastic polyvinylchloride abundance during landfill leachate treatment
PVC microplastics and cadmium individually inhibited the bacterial process of ammonia oxidation in wastewater, but in combination at certain concentrations, the PVC particles appeared to partially protect the bacteria. Understanding how microplastics interact with wastewater treatment processes is important because they affect how well sewage plants remove pollutants.
Inhibition of aged microplastics and leachates on methane production from anaerobic digestion of sludge and identification of key components
Researchers investigated the effects of aged microplastics and their leachates on sludge anaerobic digestion, finding that aged PVC and PET significantly inhibited methane production, with phthalate esters and bisphenol A identified as key inhibitory components.
Revealing How Polyvinyl Chloride Microplastic Physicochemically Affect the Anaerobic Digestion of Waste Activated Sludge
PVC microplastics in sewage sludge change the surface chemistry of sludge flocs, raising the energy barrier between sludge and the microbes that break it down and causing microbial communities to reorganise. At low concentrations PVC initially increases contact efficiency, but at higher concentrations it coats sludge surfaces and blocks microbial access, ultimately reducing methane production in anaerobic digesters — a finding relevant to the performance and safety of wastewater treatment plants receiving plastic-contaminated sludge.
Polyvinyl Chloride Microplastics Affect Methane Production from the Anaerobic Digestion of Waste Activated Sludge through Leaching Toxic Bisphenol-A
PVC microplastics were added to anaerobic sludge digestion systems at concentrations of 10–60 particles/g, finding that low concentrations (10 particles/g) slightly increased methane production (+5.9%) while higher concentrations inhibited it by up to 24.2%, with inhibition linked to bisphenol-A leaching from PVC. The study reveals a non-linear dose-dependent effect of PVC microplastics on biogas production in wastewater treatment.
Revealing the Mechanisms of Polyethylene Microplastics Affecting Anaerobic Digestion of Waste Activated Sludge
Researchers studied how polyethylene microplastics affect the anaerobic digestion of sewage sludge, a common wastewater treatment process. They found that higher concentrations of microplastics significantly reduced methane production by disrupting microbial communities and enzyme activities essential for digestion. The study reveals that microplastic contamination in wastewater systems can undermine the efficiency of sludge treatment and biogas generation.
Unraveling synergistic cascade inhibition of methane production in anaerobic digestion system by polyethylene microplastics and domestic sewage: Physical adsorption, metabolic disruption, and microbial community decoupling
Researchers systematically explored how the co-presence of polyethylene microplastics and domestic sewage inhibits methane production in anaerobic digestion systems, finding that physical adsorption of microplastics, propionic acid accumulation, and microbial community decoupling identified via multi-omics analysis collectively suppressed cumulative CH4 production by 41.8% compared to controls.
Effect of single and hybrid microplastic exposures on anaerobic sludge in microbial electrochemical technology (MET)
Researchers studied how single and mixed types of microplastics affect wastewater treatment performance in microbial electrochemical systems. They found that microplastics significantly impaired methane production, reduced pollutant removal efficiency, and increased oxidative stress in microbial communities, with PVC causing the strongest inhibition. Mixed microplastic exposure under electrical stimulation caused even greater disruption to key microbial populations involved in wastewater treatment.
Evidence that co-existing cadmium and microplastics have an antagonistic effect on greenhouse gas emissions from paddy field soils
This study examined how the co-presence of microplastics and cadmium affects greenhouse gas emissions from paddy field soils. Researchers found that polylactic acid and polyethylene microplastics had an antagonistic interaction with cadmium, meaning their combined effect on greenhouse gas emissions was less than expected from either pollutant alone.
Effects of polyvinylchloride microplastics on the toxicity of nanoparticles and antibiotics to aerobic granular sludge: Nitrogen removal, microbial community and resistance genes
Researchers examined how PVC microplastics affect wastewater treatment systems that also contain copper oxide nanoparticles and the antibiotic ciprofloxacin. They found that low concentrations of microplastics actually reduced some toxic effects of the other pollutants, but higher concentrations worsened nitrogen removal efficiency and increased antibiotic resistance genes. The study highlights the complex ways microplastics can alter the behavior of other contaminants in water treatment.
Long-Term Effects of Polyvinyl Chloride Microplastics on Anaerobic Granular Sludge for Recovering Methane from Wastewater
Researchers studied the long-term effects of PVC microplastics on anaerobic granular sludge used in wastewater treatment over 264 days. They found that microplastic exposure significantly reduced organic matter removal efficiency by up to 35.5% and decreased methane production by up to 32.3%, while disrupting the protective biofilm around sludge granules. The study demonstrates that microplastic contamination in wastewater can impair the biological treatment processes that cities rely on for waste management and energy recovery.
Single and combined effects of microplastics and cadmium on the sea cucumber Apostichopus japonicus
Researchers examined the individual and combined toxic effects of cadmium and microplastics on sea cucumbers. The study found that cadmium was the primary driver of negative effects including reduced growth, digestive enzyme suppression, and disruption of gut microbiota, but the presence of microplastics increased cadmium's toxicity when both pollutants were present at high concentrations.
Microplastics with cadmium inhibit the growth of Vallisneria natans (Lour.) Hara rather than reduce cadmium toxicity
Vallisneria natans grown in sediment with PVC microplastics and cadmium showed that MPs reduced plant fresh weight at all Cd levels tested, and the combination of MPs and cadmium was more inhibitory than cadmium alone — suggesting MPs do not reduce Cd toxicity and may worsen it.
An in-depth analysis of microbial response to exposure to high concentrations of microplastics in anaerobic wastewater fermentation
This study investigated how high concentrations of three common microplastic types affect the microbes used in anaerobic wastewater treatment, finding that microplastics reduced methane production by up to 56%. PVC had the most damaging effect on the microbial communities that break down waste, while polyethylene was somewhat less disruptive. The findings matter because impaired wastewater treatment means more pollutants, including microplastics themselves, could escape into waterways that feed human water supplies.
Effects of microplastics and cadmium on the soil-wheat system as single and combined contaminants
Researchers found that polyethylene and polypropylene microplastics combined with cadmium reduced wheat chlorophyll concentrations and affected soil-plant systems differently depending on pollution levels, revealing complex interaction effects between co-contaminants.
Ecotoxicological Impacts of Microplastics and Cadmium Pollution on Wheat Seedlings
Researchers investigated the combined effects of polyethylene microplastics and cadmium on wheat seedlings and found that microplastics generally reduced the antioxidant enzyme response that cadmium alone would trigger. The study also found that microplastics altered cadmium bioaccumulation patterns, increasing cadmium uptake in roots at low concentrations but decreasing it at higher levels, suggesting complex interactions between these co-occurring pollutants.
Polycarbonate microplastics induce oxidative stress in anaerobic digestion of waste activated sludge by leaching bisphenol A
Researchers found that polycarbonate microplastics have dose-dependent effects on anaerobic sludge digestion, with low concentrations boosting methane production by up to 25% through bisphenol A-mediated stress reduction, while high concentrations triggered oxidative damage.
Interactive Effects of Polyethylene Microplastics and Cadmium on Growth of Microcystis aeruginosa
Researchers examined what happens when polyethylene microplastics and the heavy metal cadmium are both present in freshwater, focusing on their effects on a bloom-forming algae species. Evidence indicates that the combination caused greater stress on the algae than either pollutant alone, though microplastics partially reduced cadmium toxicity by adsorbing some of the metal.
The individual and combined effects of cadmium, polyvinyl chloride (PVC) microplastics and their polyalkylamines modified forms on meiobenthic features in a microcosm
A month-long microcosm experiment tested PVC microplastics, their amine-modified forms, and cadmium — alone and in mixtures — on marine sediment meiofauna, finding that individual contaminants were toxic to nematodes but that binary mixtures caused less harm, likely because PVC chelates cadmium.
Altered biotoxicity of cadmium to freshwater green algae by different concentrations of polystyrene
Polystyrene microplastics at low concentrations partially reduced cadmium toxicity to freshwater green algae, while higher concentrations exacerbated it, demonstrating that combined pollution effects on algae are concentration-dependent.
Systematic study of microplastics on methane production in anaerobic digestion: Performance and microbial response
Microplastics are increasingly found in wastewater treatment systems, and this study systematically examined how different types, concentrations, and sizes of microplastics affect the anaerobic digestion process used to break down sewage sludge and generate biogas. Polyethylene microplastics were found to inhibit methane production, with finer particles and higher concentrations causing greater disruption to the microbial communities driving digestion. The findings matter because microplastics in sewage sludge can impair the treatment process and also end up spread on agricultural land when sludge is used as fertilizer.
Effects of combined microplastic and cadmium pollution on sorghum growth, Cd accumulation, and rhizosphere microbial functions
Researchers examined how different types and sizes of microplastics interact with cadmium, a toxic heavy metal, to affect sorghum growth and soil microbes. They found that the combined pollution generally increased plant stress and cadmium uptake, with effects varying by plastic type, particle size, and concentration. The study also revealed that the pollution mixture significantly altered soil bacterial communities and key metabolic pathways involved in nutrient cycling.
Impact of preozonation on biogas potential of PVC microplastics-containing waste sludge
Researchers evaluated the impact of preozonation on anaerobic digestion of wastewater sludge contaminated with PVC microplastics, measuring biogas and methane yields to determine whether ozone pretreatment could overcome the inhibitory effect that insoluble PVC particles exert on sludge-degrading microorganisms.
Coexistence of microplastics and Cd alters soil N transformation by affecting enzyme activity and ammonia oxidizer abundance
Researchers studied how the combined presence of microplastics and cadmium in soil affects nitrogen cycling, a process essential for soil fertility. They found that the pollutant mixture altered enzyme activity and shifted the balance of ammonia-oxidizing microbial communities more than either contaminant alone. The findings suggest that co-contamination of soils with microplastics and heavy metals could disrupt nutrient cycles critical for plant growth.
Effects of polyethylene microplastics and cadmium co-contamination on the soybean-soil system: Integrated metabolic and rhizosphere microbial mechanisms
Researchers investigated how polyethylene microplastics and cadmium interact in soybean-soil systems and found that specific microplastic concentrations enhanced cadmium accumulation in roots under moderate contamination. Higher microplastic levels reduced beneficial soil bacteria like Sphingomonas and Bradyrhizobium and suppressed nitrogen-cycling functions. The study demonstrates that microplastics fundamentally alter heavy metal behavior through interconnected plant-metabolite-microbe interactions in agricultural soils.